Analysis of Fluorofentanyl Isomer Compounds by Gas-Chromatography Coupled with Solid Phase Infrared Detector IR_AN_047 DANI Instruments Inc 257 Simarano Drive Marlborough, MA Introduction A developing problem within the illicit drug market is the increasing use of opioids and their analogues. Among these opiates is the potent synthetic analgesic, fentanyl. Fentanyl is 50 100 times stronger than morphine. It is a very powerful opiate agonist of μ-opioid receptors in the brain. Fentanyl drugs can be classified into registered therapeutic fentanyl and illicitly produced fentanyl and its analogues. One of the illicitly produced analogues that has recently been encountered within forensic laboratories is fluorofentanyl. Para-fluorofentanyl activates the human μ-opioid receptor with greater potency than fentanyl. In this application note we compare the infrared spectra of the available standards of the 2 methoxy benzyl compounds where the R group in the structure above is n-propylthio, or isopropylthio. The N-BOMe compounds are highly potent, with dosage typically in the microgram range. Distribution on tabs of blotter paper has been observed (similar to LSD cases). The low dosage may require microgram sensitivity for detection with casework samples. The DiscovIR-GC system provides high quality Infrared spectra from Nano grams of sample. The spectra from the standards is shown on the next page. Fentanyl Para-Fluorofentanyl Para-Fluorofentanyl is the only isomer that is federally controlled by the DEA. Para-Fluorofentanyl is federally a Schedule I controlled substance. The ortho and meta isomers are currently not federally scheduled. Differentiation of these isomers can be achieved via infrared spectroscopy. DiscovIR coupled with a Dani-GC offers forensic chemists conclusive infrared spectra for each compound in a mixture. This application will show the analysis and differentiation of the fluorofentanyl isomers. www.dani-instruments.com
DiscovIR-GC Fluorofentanyl Isomers The fluorofentanyl isomers were purchased from Cayman Chemical. A 1mg/mL concentration of each compound was made in MeOH. Each compound was basified with 0.5M NaOH and extracted with CHCl 3. The resulting extract was placed into a normal GC vial with screw cap fitted with a low volume insert. Each isomer was analyzed via a Dani-GC coupled with a DiscovIR infrared detector. Collection occurs onto a ZnSe disc super-cooled with LN2. Thus, separation of any mixture is achieved with the GC, with the resulting IR collected in a solid phase. Solid phase collection results in improved resolution when compared to gas phase or light pipe technology. The compounds were analyzed singularly as well as made into a mixture. Mixture concentration of 0.33mg/ ml and split ratio of 5:1 places 67ng of each isomer onto the column. A 15-meter column with 0.25mm ID and 0.25µm film thickness of DB35 was used for analysis of each compound as well as to provide adequate separation of the mixture of the compounds. The infrared spectrum of each compound is depicted below.
Fingerprint Region of GC Fluorofentanyl Isomers Gas Chromatogram of a Mixture of Fluorofentanyl Isomers by FTIR
DiscovIR-GC Fluorofentanyl Isomers Top four reasons to purchase a DiscovIR-GC system: 1. Spectral Resolution 2. Sensitivity ng level of nonadecane, <100ng level of most controlled substances 3. Compatible with most existing solid phase (ATR) IR libraries 4. Compatible with existing GC-MS columns and methods, no need for customer to change to unknown columns or methods DiscovIR-GC Specifications Infrared Spectrum Range 4000-700 cm -1 Resolution 4 cm -1 Spectrum Type Transmittance Re-Usable ZnSe Sample Disc Capacity 50 hours
www.dani-instruments.com The contents of this publication are for reference and illustrative purposes only. Information, descriptions and specification are subjected to change without notice. DANI Instruments assumes no responsability and will not be liable for any errors or omissions contained herein or for incidental, consequential damages or losses in connection with the furnishing, performance, or use of this material. IR_AN_047 DANI Instruments Inc. 257 Simarano Drive Marlborough, MA USA